Zhenyuan Wang,ab Mi Wang, *a Qingsheng Tao,c Yufei Li, d Hao Wang,a Mei Zhang,c Xueli Liuc and Jiaheng Zhang *a
a Sauvage Laboratory for Smart Materials, School of Materials Science and Engineering, Harbin Institute of Technology (Shenzhen), Shenzhen 518055, China. E-mail: 该Email地址已收到反垃圾邮件插件保护。要显示它您需要在浏览器中启用JavaScript。, 该Email地址已收到反垃圾邮件插件保护。要显示它您需要在浏览器中启用JavaScript。
b Shenzhen Shinehigh Innovation Technology Co., Ltd., Shenzhen 518055, China
c Advanced Research, L'Oreal Research & Innovation China, Shanghai 201206, China
d The Centre in Artificial Intelligence Driven Drug Discovery, Faculty of Applied Sciences, Macao Polytechnic University, Macao 999078, China
† Electronic supplementary information (ESI) available. CCDC 2101906. For ESI
and crystallographic data in CIF or other electronic format see DOI: https://doi.
org/10.1039/d5md00001g
Salicylic acid (SA) is a natural lipophilic active ingredient commonly used in cosmetics and skin disease treatments, offering benefits such as exfoliation, anti-inflammation effects, antibacterial properties, oil control, and acne alleviation. However, its poor water solubility, low bioavailability, and potential side effects, such as allergies, irritation, and dryness, hinder its widespread application. In this study, we prepared a betaine–salicylic acid (BeSA) cocrystal and systematically characterized its crystal structure, biological activity, and clinical efficacy. The results showed that BeSA has significantly lower irritancy and cytotoxicity than SA, but exhibits excellent anti-inflammatory and antioxidant properties as well as high moisturizing and anti-acne efficacy, making it a potential alternative to SA. Further, quantum chemical calculations and molecular docking simulations were conducted to investigate the intrinsic mechanisms underlying the excellent bioactivity of BeSA cocrystals. This study introduces an innovative solution for safer and more effective skincare formulations based on SA and offers theoretical guidance regarding material engineering and further material optimization, which has crucial implications for both industry and academia.
Received 1st January 2025,
Accepted 4th February 2025
DOI: 10.1039/d5md00001g rsc.li/medchem
Anna Ericsson a,* , Karin Borgstrom¨ b,c , Christine Kumlien a,c,d , Magdalena Gershater Annersten a,c , Tautgirdas Ruzgas b,c , Johan Engblom b,c , Petri Gudmundsson b,c , Victoria Lazer a , Skaidre Jankovskaja b,c , Eva Lavant b,c , Sophia Ågren-Witteschus d , Sebastian Bjorklund ¨ b,d , Saman Salim e,f , Mikael Åstrom¨ g , Stefan Acosta f
a Department of Care Science, Faculty of Health and Society, Malm¨ o University, Malm¨ o, Sweden
b Department of Biomedical Science, Faculty of Health and Society, Malm¨ o University, Malm¨ o, Sweden
c Biofilms – Research Center for Biointerfaces, Malm¨ o University, Malm¨ o, Sweden
d Department of Cardiothoracic and Vascular Surgery, Skåne University Hospital, Malm¨ o, Sweden
e Department of Dermatology and Allergy Centre, Odense University Hospital, Odense, Denmark
f Department of Clinical Sciences, Lund University, Malmo, ¨ Sweden
g StatCons, Sweden
ARTICLE INFO
Keywords: Diabetes mellitus Dry feet Prevention Foot-xerosis Self-care
ABSTRACT
Introduction: To minimize the risk of developing foot-ulcers, persons with diabetes are given the advice to daily inspect their feet and to apply skincare formulations. However, commercially available skincare products have rarely been developed and evaluated for diabetes foot care specifically. The primary aim of this randomized controlled trial (RCT) is to evaluate the effects in reducing foot xerosis in persons with diabetes without footulcers using two skincare creams containing different humectants (interventions) against a cream base nonhumectant (comparator). Secondary outcomes are to evaluate differences on skin barrier integrity, lowmolecular weight biomarkers and skin microbiota, microcirculation including transcutaneous oxygen pressure, degree of neuropathy, and HbA1c between intervention-comparator creams.
Methods: Two-armed double-blind RCT, registered in ClinicalTrials.gov Identifier: NCT06427889. With 80 % power, two-tailed significance of 2.5 % in each arm, 39 study persons is needed in each arm, total 78 persons, 98 including dropouts, to be able to prove a reduction of at least one category in the Xerosis Severity Scale with the intervention creams compared to the comparator. In one arm, each participant will treat one foot with one of the intervention creams (Oviderm® or Canoderm®), while the opposite foot will be treated with the comparator cream (Decubal®lipid cream), twice a day. If needed, participants are enrolled after a wash-out period of two weeks. The participants will undergo examinations at baseline, day 14 and day 28.
Discussion: This RCT evaluate the potential effects of humectants in skin creams against foot xerosis in persons with diabetes.
原创: 十六点五 中山二院糖尿病足中心
糖尿病足的预防是各种指南中最重要的部分,无论是国内还是国外的,在各版的IWGDF指南都是重要内容,而且说明得特别详细及有比较多得循证医学的证据支持。但比较几个版本的IWGDF指南及国内外其他指南,这部分是肯定存在的,从中可以看出“糖尿病足的预防”已经深入人心。
糖尿病足实质上就是一种糖尿病人足部出现难以愈合的皮肤慢性溃疡,如何使糖尿病人足部皮肤慢性溃疡愈合是糖尿病足治疗的中心,因此,围绕足部皮肤慢性溃疡愈合是糖尿病足治疗的中心环节。
IWGDF(The International Working Group on the Diabetic Foot)是一个以欧美从事糖尿病足工作的专家为主的,有其他大洲有关专家共同组成的,目前国际上有关糖尿病足的预防、诊断、治疗、研究、管理等方面最专业的国际组织之一(基本上没有之一)。
脓腔切开,3型安尔碘纱布填塞一天之后,重新打开伤口,进行第二次清创,这次清创也是非常重要的。一般需要完成三个任务:探查创面、鉴别坏死及感染的组织、仔细清除各种需要清除的组织。
(3)要把足部被细菌侵袭的各个空隙最好都能打开,尤其是足部比较重要的“空隙”,也是为了引流充分。
糖尿病足的创面清创术是最有效的局部抗菌治疗。毛主席很早之前就教导我们:扫把不到灰尘照例不会自己跑掉,糖尿病足清创术就是治疗糖尿病足局部创面上的“灰尘”(细菌)最有效的“扫把”。
伤口世界平台生态圈,以“关爱人间所有伤口患者”为愿景,连接、整合和拓展线上和线下的管理慢性伤口的资源,倡导远程、就近和居家管理慢性伤口,解决伤口专家的碎片化时间的价值创造、诊疗经验的裂变复制、和患者的就近、居家和低成本管理慢性伤口的问题。
2019广东省医疗行业协会伤口管理分会年会
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